Ansys SCADE provides an integrated platform specifically designed for embedded systems in industries that demand the highest levels of safety and precision such as aerospace, automotive, and railways. It equips engineers with a comprehensive set of tools that facilitate a smooth and efficient development process, from initial concept and design through to rigorous testing and deployment, ensuring all aspects of the system work together cohesively. By leveraging model-based design, SCADE facilitates the creation of complex system architectures and dynamic human-machine interfaces (HMIs), while ensuring consistency and traceability throughout the development process. Automated testing and formal verification capabilities ensure that designs meet stringent safety standards like DO-178C and ISO 26262. Additionally, SCADE’s real-time performance analysis and vision-based system development tools enable the creation and validation of advanced applications. The suite's ability to integrate with various analysis and lifecycle management tools further enhances project efficiency, making it an indispensable solution for developing high-assurance embedded software.
- User-Friendly Interface
- Cross-Platform Compatibility
- Scalability
- Customizable Toolchain
- High-Fidelity Simulation
- Collaborative Design
- Extensive Libraries
- Error Detection
- Modular Design Support
- Security Features
- Automated Documentation
- Real-Time Debugging
- Third-Party Integration
- Data Management
- Version Control
- Resource Optimization
- Continuous Integration Support
Capabilities
Ansys SCADE’s comprehensive toolset covers every phase of embedded system development, offering features that ensure precision, safety, and efficiency across the entire process. From model-based design and certified code generation to automated testing and lifecycle management, SCADE provides the tools needed to meet the highest safety standards. Its ability to support complex HMI development, conduct real-time performance analysis, and ensure seamless integration across the development lifecycle makes it an invaluable resource for engineers.
Explore our capabilities!
Model-Based System Design
Model-Based System Design in Ansys SCADE allows engineers to design, simulate, and validate complex system architectures with high precision. Available in SCADE Architect and SCADE Suite, this feature leverages SysML and other modeling standards to ensure system models are fully integrated with requirements. It streamlines development, enhances consistency, and reduces errors, making it ideal for safety-critical applications.
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Certified Code Generation
Ansys SCADE Suite and Ansys SCADE Display offer automatic code generation features while ensuring full compliance with industry safety standards such as DO-178C and ISO 26262. This powerful process delivers high-quality, reliable code directly from model designs, streamlines certification, and significantly reduces both manual errors and development time, making it indispensable for safety-critical embedded applications.
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Comprehensive HMI Development
Ansys SCADE Display provides a powerful platform for building comprehensive human-machine interfaces (HMIs) tailored to safety-critical environments. Supporting OpenGL SC and ES, it allows for precise design of interactive displays. Integrated with SCADE Suite, it enables seamless development, allowing engineers to refine HMIs alongside their behavioral logic, with an automated connection ensuring alignment between graphical components and critical system behavior.
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Seamless Integration
The seamless integration within Ansys SCADE ensures that tools like SCADE Architect, SCADE Suite, and SCADE Display work together effortlessly. This connection allows engineers to maintain consistency between system architectures, software logic, and graphical interfaces. Changes made in one tool are automatically updated across the platform, improving workflow efficiency and keeping the entire development process synchronized and error-free.
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Formal verification
Ansys SCADE’s Formal verification tool, part of SCADE Suite, ensures that system models are mathematically verified for correctness, reducing the likelihood of errors in critical embedded systems. This method helps engineers detect potential flaws in system logic and behavior before entering the testing phase. With formal verification integrated into the workflow, teams can ensure that their designs comply with safety standards while reducing development risks and enhancing overall system reliability.
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Real-Time Performance Analysis
Ansys SCADE’s Real-Time Performance Analysis capability provides detailed insights into the runtime performance of embedded systems. Engineers can monitor key parameters like timing, resource allocation, memory usage, and processor load, ensuring that the system meets stringent real-time constraints. Engineers can analyze system performance in various conditions, identifying bottlenecks early and making necessary adjustments.
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Simulation and Prototyping
The Simulation and Prototyping functionality across SCADE Suite and SCADE Display provides engineers with the ability to simulate full software architectures and HMIs using auto-generated C or Ada code. These simulations allow for step-by-step or continuous execution, enabling verification of timing constraints, resource management, and functional behavior under real-world conditions. Engineers can evaluate component interactions, detect model inconsistencies, and refine designs before final deployment.
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Requirements Traceability
This feature allows You to reach seamless linkage between requirements, design elements, and test cases. It integrates with popular requirement management tools such as IBM DOORS and Polarion, ensuring that all requirements are clearly traceable throughout the software lifecycle. Engineers can track changes, assess the impact of modifications, and verify that all requirements are correctly implemented.
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Vision-Based System Development
This capability provides a comprehensive environment for developing and validating vision algorithms for embedded systems. It enables modeling and simulation of real-time video processing from sensor inputs, ensuring vision-based functions are correctly implemented and optimized for performance. By automating code generation and incorporating model-level testing, this feature ensures that vision algorithms are reliable, compliant with safety standards such as ISO 26262, and ready for deployment in safety-critical systems.
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Lifecycle Management
The lifecycle management abilities of SCADE LifeCycle provide a comprehensive solution for managing embedded software development processes. It integrates with ALM and PLM tools, supporting traceability from requirements through to verification and validation. The tool supports configuration control, version management, and automatic documentation generation, ensuring compliance with safety standards .
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Software Sales
If you have any general questions about our Ansys, Moldex3D, Dante, Particleworks, or CF Turbo simulation software (quotation, licensing, training), please contact us using one of the following contact details. Please note that our software is only available to customers from the following countries: Hungary, Slovenia, Croatia, Serbia, Bosnia and Herzegovina, Montenegro, and Macedonia.
sales (at) econengineering.com
+36 1 279 0320

Greg Lipóczi, Dr.
Commercial Director

László Molnár, Ph.D.
Academic & Key Account Representative

Péter Bara
Key Account Manager
East Hungary

János Simon
Key Account Manager
West Hungary
